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A RISC-V assembler

An extensible RISC-V assembler written in Rust. The goal of this project is to provide a platform for experimentation with the RISC-V architecture by having an assembler that allows for quick iteration of tiny programs compiled into flat binaries, and of instruction sets defined in simple to edit TOML 0.5 files.

Usage

USAGE:
    rvasm [FLAGS] [OPTIONS] [--] [input_file]

FLAGS:
    -h, --help       Prints help information
    -b, --binary     In addition to writing a file, print the assembly in binary to the terminal
    -V, --version    Prints version information
    -v, --verbose    Enable additional output

OPTIONS:
    -a, --arch <arch>                  RISC-V variant to assemble for, like RV32IMZamZifencei (finds config files in
                                       standard path) [default: RV32I]
    -c, --cfg <cfg>...                 Additional config file paths to parse
    -s, --string <input_string>        Input string instead of file, all semicolons are replaced by newlines
    -o, --output-file <output_file>    Output (assembled) file path
    -f, --format <output_format>       Output file format (only `flat` binary is supported) [default: flat]

ARGS:
    <input_file>    Input file path

For example, if you have a file sample1.s:

addi s0, s1, 2+2

You can assemble it by using the command rvasm sample1.s -o sample1.bin. This is the equivalent of options: rvasm sample1.s -o sample1.bin -a RV32I -f flat

If you'd like to peek into the binary representation of instructions (only 32-bit ILEN supported now), you can invoke rvasm like this:

rvasm -s "addi s0, s1, 2+2" -b

Which will produce the following output:

Binary assembly:
00000000010001001000010000010011 
Warning: no output file specified so none was created.

Which displays the 32-bit instructions as 32 binary digits, rightmost one is the LSB and leftmost is MSB. (Swapped around from the actual little endian byte encoding for readability)

Defining instruction sets

Create a copy of cfg/help.toml and follow the comments to define instruction formats and specific encodings. You can also take a look at the included RV32I definition in cfg/rv32i.toml.

Supported directives

Apart from the instructions defined in the TOML files, the assembler supports a few directives:

  • $ - replaced by current PC value
  • .org ADDRESS - sets the internal PC value and output file position to ADDRESS
  • .equ NAME VAL/.define NAME VAL - defines constants that can be used in expressions instead of integers
  • .label: - labels starting with a dot are local to the scope of their parent label

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Languages

  • Rust 99.2%
  • Assembly 0.8%